Title :
Carbon dioxide sequestration at elevated temperature by pressure swing adsorption
Author :
Martunus ; Helwani, Z. ; Wiheeb, A.D. ; Othman, M.R.
Author_Institution :
Sch. of Chem. Eng., Univ. Sains Malaysia, Nibong Tebal, Malaysia
Abstract :
Modeling and simulation of CO2 capture from flue gases of coal fired power plant at high temperature are presented. The work employed a 19% potassium and 1% sodium hydrotalcite adsorbent, for which CO2 capacities in excess 0.84 mol/kg were measured at temperature of 575 K. Elution profiles from a pressure swing adsorption (PSA) unit also enabled analysis of adsorption and desorption process. A cyclic and multibed process for the continuous capture of CO2 was proposed. A mathematical model for the CO2-19% potassium and 1% sodium hydrotalcite adsorbent system, based on measured equilibria and kinetic data, was used for the assessment of the process in terms of CO2 product purity and recovery.
Keywords :
adsorption; air pollution control; climate mitigation; desorption; flue gases; steam power stations; CO2; CO2 capture simulation; carbon dioxide sequestration; coal fired power plant; cyclic process; desorption process; elevated temperature; flue gases; mathematical model; pressure swing adsorption; sodium hydrotalcite adsorbent system; temperature 575 K; Carbon dioxide; Coal; Feeds; Heat transfer; Mathematical model; Power generation; Solids; Carbon dioxide; adsorption; flue gas; hydrotalcite adsorbent;
Conference_Titel :
Sustainable Energy & Environment (ISESEE), 2011 3rd International Symposium & Exhibition in
Conference_Location :
Melaka
Print_ISBN :
978-1-4577-0340-9
DOI :
10.1109/ISESEE.2011.5977082
